matplotlib.colors.LightSource

class matplotlib.colors.LightSource(azdeg=315, altdeg=45, hsv_min_val=0, hsv_max_val=1, hsv_min_sat=1, hsv_max_sat=0)
[source]

Bases: object
Create a light source coming from the specified azimuth and elevation. Angles are in degrees, with the azimuth measured clockwise from north and elevation up from the zero plane of the surface.
The shade()
is used to produce "shaded" rgb values for a data array. shade_rgb()
can be used to combine an rgb image with The shade_rgb()
The hillshade()
produces an illumination map of a surface.
Specify the azimuth (measured clockwise from south) and altitude (measured up from the plane of the surface) of the light source in degrees.
Parameters: 

azdeg : number, optional 
The azimuth (0360, degrees clockwise from North) of the light source. Defaults to 315 degrees (from the northwest). 
altdeg : number, optional 
The altitude (090, degrees up from horizontal) of the light source. Defaults to 45 degrees from horizontal. 
Notes
For backwards compatibility, the parameters hsv_min_val, hsv_max_val, hsv_min_sat, and hsv_max_sat may be supplied at initialization as well. However, these parameters will only be used if "blend_mode='hsv'" is passed into shade()
or shade_rgb()
. See the documentation for blend_hsv()
for more details.

blend_hsv(rgb, intensity, hsv_max_sat=None, hsv_max_val=None, hsv_min_val=None, hsv_min_sat=None)
[source]

Take the input data array, convert to HSV values in the given colormap, then adjust those color values to give the impression of a shaded relief map with a specified light source. RGBA values are returned, which can then be used to plot the shaded image with imshow.
The color of the resulting image will be darkened by moving the (s,v) values (in hsv colorspace) toward (hsv_min_sat, hsv_min_val) in the shaded regions, or lightened by sliding (s,v) toward (hsv_max_sat hsv_max_val) in regions that are illuminated. The default extremes are chose so that completely shaded points are nearly black (s = 1, v = 0) and completely illuminated points are nearly white (s = 0, v = 1).
Parameters: 

rgb : ndarray 
An MxNx3 RGB array of floats ranging from 0 to 1 (color image). 
intensity : ndarray 
An MxNx1 array of floats ranging from 0 to 1 (grayscale image). 
hsv_max_sat : number, optional 
The maximum saturation value that the intensity map can shift the output image to. Defaults to 1. 
hsv_min_sat : number, optional 
The minimum saturation value that the intensity map can shift the output image to. Defaults to 0. 
hsv_max_val : number, optional 
The maximum value ("v" in "hsv") that the intensity map can shift the output image to. Defaults to 1.  hsv_min_val: number, optional

The minimum value ("v" in "hsv") that the intensity map can shift the output image to. Defaults to 0. 
Returns: 

rgb : ndarray 
An MxNx3 RGB array representing the combined images. 

blend_overlay(rgb, intensity)
[source]

Combines an rgb image with an intensity map using "overlay" blending.
Parameters: 

rgb : ndarray 
An MxNx3 RGB array of floats ranging from 0 to 1 (color image). 
intensity : ndarray 
An MxNx1 array of floats ranging from 0 to 1 (grayscale image). 
Returns: 

rgb : ndarray 
An MxNx3 RGB array representing the combined images. 

blend_soft_light(rgb, intensity)
[source]

Combines an rgb image with an intensity map using "soft light" blending. Uses the "pegtop" formula.
Parameters: 

rgb : ndarray 
An MxNx3 RGB array of floats ranging from 0 to 1 (color image). 
intensity : ndarray 
An MxNx1 array of floats ranging from 0 to 1 (grayscale image). 
Returns: 

rgb : ndarray 
An MxNx3 RGB array representing the combined images. 

direction

The unit vector direction towards the light source

hillshade(elevation, vert_exag=1, dx=1, dy=1, fraction=1.0)
[source]

Calculates the illumination intensity for a surface using the defined azimuth and elevation for the light source.
This computes the normal vectors for the surface, and then passes them on to shade_normals
Parameters: 

elevation : arraylike 
A 2d array (or equivalent) of the height values used to generate an illumination map 
vert_exag : number, optional 
The amount to exaggerate the elevation values by when calculating illumination. This can be used either to correct for differences in units between the xy coordinate system and the elevation coordinate system (e.g. decimal degrees vs meters) or to exaggerate or deemphasize topographic effects. 
dx : number, optional 
The xspacing (columns) of the input elevation grid. 
dy : number, optional 
The yspacing (rows) of the input elevation grid. 
fraction : number, optional 
Increases or decreases the contrast of the hillshade. Values greater than one will cause intermediate values to move closer to full illumination or shadow (and clipping any values that move beyond 0 or 1). Note that this is not visually or mathematically the same as vertical exaggeration.  Returns
 

intensity : ndarray 
A 2d array of illumination values between 01, where 0 is completely in shadow and 1 is completely illuminated. 

shade(data, cmap, norm=None, blend_mode='overlay', vmin=None, vmax=None, vert_exag=1, dx=1, dy=1, fraction=1, **kwargs)
[source]

Combine colormapped data values with an illumination intensity map (a.k.a. "hillshade") of the values.
Parameters: 

data : arraylike 
A 2d array (or equivalent) of the height values used to generate a shaded map. 
cmap : Colormap instance 
The colormap used to color the data array. Note that this must be a Colormap instance. For example, rather than passing in cmap='gist_earth' , use cmap=plt.get_cmap('gist_earth') instead. 
norm : Normalize instance, optional 
The normalization used to scale values before colormapping. If None, the input will be linearly scaled between its min and max. 
blend_mode : {'hsv', 'overlay', 'soft'} or callable, optional 
The type of blending used to combine the colormapped data values with the illumination intensity. Default is "overlay". Note that for most topographic surfaces, "overlay" or "soft" appear more visually realistic. If a userdefined function is supplied, it is expected to combine an MxNx3 RGB array of floats (ranging 0 to 1) with an MxNx1 hillshade array (also 0 to 1). (Call signature func(rgb, illum, **kwargs) ) Additional kwargs supplied to this function will be passed on to the blend_mode function. 
vmin : scalar or None, optional 
The minimum value used in colormapping data. If None the minimum value in data is used. If norm is specified, then this argument will be ignored. 
vmax : scalar or None, optional 
The maximum value used in colormapping data. If None the maximum value in data is used. If norm is specified, then this argument will be ignored. 
vert_exag : number, optional 
The amount to exaggerate the elevation values by when calculating illumination. This can be used either to correct for differences in units between the xy coordinate system and the elevation coordinate system (e.g. decimal degrees vs meters) or to exaggerate or deemphasize topography. 
dx : number, optional 
The xspacing (columns) of the input elevation grid. 
dy : number, optional 
The yspacing (rows) of the input elevation grid. 
fraction : number, optional 
Increases or decreases the contrast of the hillshade. Values greater than one will cause intermediate values to move closer to full illumination or shadow (and clipping any values that move beyond 0 or 1). Note that this is not visually or mathematically the same as vertical exaggeration.  Additional kwargs are passed on to the *blend_mode* function.

Returns: 

rgba : ndarray 
An MxNx4 array of floats ranging between 01. 

shade_normals(normals, fraction=1.0)
[source]

Calculates the illumination intensity for the normal vectors of a surface using the defined azimuth and elevation for the light source.
Imagine an artificial sun placed at infinity in some azimuth and elevation position illuminating our surface. The parts of the surface that slope toward the sun should brighten while those sides facing away should become darker.
Parameters: 

fraction : number, optional 
Increases or decreases the contrast of the hillshade. Values greater than one will cause intermediate values to move closer to full illumination or shadow (and clipping any values that move beyond 0 or 1). Note that this is not visually or mathematically the same as vertical exaggeration. 
Returns: 

intensity : ndarray 
A 2d array of illumination values between 01, where 0 is completely in shadow and 1 is completely illuminated. 

shade_rgb(rgb, elevation, fraction=1.0, blend_mode='hsv', vert_exag=1, dx=1, dy=1, **kwargs)
[source]

Take the input RGB array (ny*nx*3) adjust their color values to given the impression of a shaded relief map with a specified light source using the elevation (ny*nx). A new RGB array ((ny*nx*3)) is returned.
Parameters: 

rgb : arraylike 
An MxNx3 RGB array, assumed to be in the range of 0 to 1. 
elevation : arraylike 
A 2d array (or equivalent) of the height values used to generate a shaded map. 
fraction : number 
Increases or decreases the contrast of the hillshade. Values greater than one will cause intermediate values to move closer to full illumination or shadow (and clipping any values that move beyond 0 or 1). Note that this is not visually or mathematically the same as vertical exaggeration. 
blend_mode : {'hsv', 'overlay', 'soft'} or callable, optional 
The type of blending used to combine the colormapped data values with the illumination intensity. For backwards compatibility, this defaults to "hsv". Note that for most topographic surfaces, "overlay" or "soft" appear more visually realistic. If a userdefined function is supplied, it is expected to combine an MxNx3 RGB array of floats (ranging 0 to 1) with an MxNx1 hillshade array (also 0 to 1). (Call signature func(rgb, illum, **kwargs) ) Additional kwargs supplied to this function will be passed on to the blend_mode function. 
vert_exag : number, optional 
The amount to exaggerate the elevation values by when calculating illumination. This can be used either to correct for differences in units between the xy coordinate system and the elevation coordinate system (e.g. decimal degrees vs meters) or to exaggerate or deemphasize topography. 
dx : number, optional 
The xspacing (columns) of the input elevation grid. 
dy : number, optional 
The yspacing (rows) of the input elevation grid.  Additional kwargs are passed on to the *blend_mode* function.

Returns: 

shaded_rgb : ndarray 
An MxNx3 array of floats ranging between 01. 
Examples using matplotlib.colors.LightSource